SAUDI ARABIAN OIL COMPANY patent applications on December 19th, 2024
Patent Applications by SAUDI ARABIAN OIL COMPANY on December 19th, 2024
SAUDI ARABIAN OIL COMPANY: 21 patent applications
SAUDI ARABIAN OIL COMPANY has applied for patents in the areas of B01J35/10 (4), B01J37/02 (4), B01J37/00 (3), B01J29/40 (2), B01J37/08 (2) B01J8/003 (2), B01D53/62 (1), G06F21/606 (1), G01V7/04 (1), G01V3/38 (1)
With keywords such as: catalyst, water, tube, zeolite, stream, gravity, form, including, optically, and transparent in patent application abstracts.
Patent Applications by SAUDI ARABIAN OIL COMPANY
Inventor(s): Omer Refa Koseoglu of Dhahran (SA) for saudi arabian oil company
IPC Code(s): B01J8/00, B01J8/08
CPC Code(s): B01J8/003
Abstract: a method of loading a catalyst includes providing a catalyst loading apparatus including an optically transparent tube, a metal tube and a horizontal divider, coating the interior surface of the optically transparent tube, the metal tube, or both with a first wax; adding a first inert material to the optically transparent tube, to form a first layer including the first inert material; adding a catalyst into the optically transparent tube, to form a second layer including the catalyst disposed above the first layer; adding a second inert material to the optically transparent tube at least until substantially no void space is observed in the second layer, the second inert material having a lesser diameter than the first inert material and the catalyst; actuating a gate of the horizontal divider into the opened position; and displacing the first and second layers into the metal tube.
Inventor(s): Omer Refa Koseoglu of Dhahran (SA) for saudi arabian oil company
IPC Code(s): B01J8/00, B01J8/08, B01J8/16
CPC Code(s): B01J8/003
Abstract: a method of loading a catalyst includes providing a catalyst loading apparatus having an optically transparent tube removably coupled to a metal tube and a horizontal divider having a shaft coupled to a plate, the horizontal divider positioned within the optically transparent tube, the metal tube or at least partially within both. the method also includes adding a first inert material to the optically transparent tube, adding a catalyst into the optically transparent tube, adding a second inert material to the optically transparent tube, inserting a distal end of a leveling device having a shaft and a disc into the catalyst loading apparatus from the top surface of the optically transparent tube, contacting the disc of the leveling device against the second layer comprising the catalyst; and displacing at least the horizontal divider into the metal tube.
Inventor(s): Aaron Chi Akah of Dhahran (SA) for saudi arabian oil company, Rabindran Jermy of Dammam (SA) for saudi arabian oil company, Ziyauddin S. Qureshi of Dhahran (SA) for saudi arabian oil company, Abdullah M. Aitani of Khobar (SA) for saudi arabian oil company, M. Abdulbari Siddiqui of Dhahran (SA) for saudi arabian oil company
IPC Code(s): B01J29/48, B01J37/02, B01J37/10, B01J37/30
CPC Code(s): B01J29/48
Abstract: this disclosure relates to methods of forming a zeolite composition, the method comprising calcining one or more clay mineral compositions to form metakaolin, wherein the one or more clay mineral compositions may comprise greater than or equal to 10 wt. % halloysite, forming a slurry by combining at least the metakaolin, a shape selective zeolite, a basic compound, silica particles, and a templating agent, hydrothermally treating the slurry to form a hydrothermal product, calcining the hydrothermal product to form a zeolite product, combining the zeolite product and at least one metal precursor, wherein the at least one metal precursor may comprise a manganese precursor, a phosphorous precursor, or both a manganese precursor and a phosphorous precursor to form a zeolite composition comprising manganese, phosphorus, or both manganese and phosphorous.
Inventor(s): Rajesh Kumar Parsapur of Thuwal (SA) for saudi arabian oil company, Robert Peter Hodgkins of Dhahran (SA) for saudi arabian oil company, Omer Refa Koseoglu of Dhahran (SA) for saudi arabian oil company, Kuo-Wei Huang of Thuwal (SA) for saudi arabian oil company, Anissa Bendjeriou Sedjerari of Thuwal (SA) for saudi arabian oil company
IPC Code(s): B01J29/70, B01J6/00, B01J35/10, B01J37/00, B01J37/02, C01B39/04
CPC Code(s): B01J29/7007
Abstract: described herein are zeolite beta particles with radially arranged mesopores and methods of making the same. in one or more embodiments, a zeolite beta particle may include a beta zeolitic framework including a plurality of micropores having diameters of less than or equal to 2 nm. in embodiments, the beta zeolitic framework may include alumina and silica. in embodiments, the zeolite beta particles disclosed herein may include a plurality of mesopores having diameters of greater than 2 nm and less than or equal to 50 nm. in embodiments, the plurality of mesopores may be arranged in a center-radial configuration, such that mesopores run from a central region of the zeolite beta particle towards the edge of the zeolite beta particle.
Inventor(s): Robert Peter Hodgkins of Dhahran (SA) for saudi arabian oil company, Omer Refa Koseoglu of Dhahran (SA) for saudi arabian oil company, Kuo-Wei Huang of Thuwal (SA) for saudi arabian oil company, Magnus Rueping of Thuwal (SA) for saudi arabian oil company, Manoja K. Samantaray of Thuwal (SA) for saudi arabian oil company, Rajesh Kumar Parsapur of Thuwal (SA) for saudi arabian oil company, Anissa Bendjeriou Sedjerari of Thuwal (SA) for saudi arabian oil company
IPC Code(s): B01J31/12, B01J29/08, B01J35/00, B01J35/10, B01J37/00, C10G11/05
CPC Code(s): B01J31/121
Abstract: modified zeolites may include a microporous framework including a plurality of micropores having diameters of less than or equal to 2 nm. the microporous framework may include at least silicon atoms and oxygen atoms. the modified zeolite may include a plurality of mesopores having diameters of greater than 2 nm and less than or equal to 50 nm, wherein the plurality of mesopores are ordered with cubic symmetry. the modified zeolite may include a plurality of hafnium hydride moieties each bonded to at least two bridging oxygen atoms, wherein a hafnium atom of the hafnium hydride is bonded to the bridging oxygen atom, and wherein the bridging oxygen atom bridges the hafnium atom of the hafnium hydride moiety and a silicon atom of the microporous framework.
Inventor(s): Omer Refa Koseoglu of Dhahran (SA) for saudi arabian oil company
IPC Code(s): B01J37/34, B01J20/18, B01J20/30, B01J20/32, B01J29/06, B01J37/02, B01J37/03, B01J37/08, C01B3/12
CPC Code(s): B01J37/342
Abstract: an integrated catalyst/adsorbent manufacturing process. the process includes generating electrical energy from a green energy source and providing the electrical energy to operate an electrolyzer, a steam generation unit, and a catalyst/adsorbent manufacturing unit. the electrolyzer operates to generate a hydrogen stream and an oxygen stream from electrolysis of a first stream of water and the steam generation unit operates by burning the hydrogen in the steam generation unit to generate heat to convert a second stream of water into steam. the catalyst/adsorbent manufacturing unit operates to produce the catalyst/adsorbent from the electrical energy, the steam, the hydrogen, the oxygen, and catalyst/adsorbent precursor chemicals provided to the catalyst/adsorbent manufacturing unit. finally, the process includes capturing a carbon dioxide stream generated as a by-product of production of the catalyst/adsorbent in the catalyst/adsorbent manufacturing unit to generate the catalyst/adsorbent without coemissions.
Inventor(s): Aaron Akah of Dhahran (SA) for saudi arabian oil company, Rabindran Jermy of Dammam (SA) for saudi arabian oil company, Abdullah Aitani of Dhahran (SA) for saudi arabian oil company, Mohammed A.B. Siddiqui of Dhahran (SA) for saudi arabian oil company, Musaed Al-Ghrami of Dammam (SA) for saudi arabian oil company
IPC Code(s): C01B39/38, B01J6/00, B01J29/40, B01J35/10, C10G47/02
CPC Code(s): C01B39/38
Abstract: this disclosure relates to methods of forming a zsm-5 zeolite, the method comprising calcining one or more clay mineral compositions to form metakaolin, wherein the one or more clay mineral compositions may comprise greater than or equal to 10 wt. % halloysite; forming a slurry by combining at least the metakaolin, zsm-5 zeolite seeds, a basic compound, and a silica source; hydrothermally treating the slurry to form a hydrothermal product; and calcining the hydrothermal product to form a zsm-5 zeolite. this disclosure also relates processes of cracking a hydrocarbon feed comprising contacting the hydrocarbon feed with steam in the presence of a cracking catalyst comprising the zsm-5 zeolite in a reactor under reaction conditions sufficient to cause at least a portion of the hydrocarbon feed to undergo one or more cracking reactions to produce a cracking effluent comprising light olefins, light aromatic compounds, or both.
Inventor(s): Hashim N. Al Khunaizi of Qatif (SA) for saudi arabian oil company, Munir Khokhar of Dhahran (SA) for saudi arabian oil company
IPC Code(s): C07C4/06, B01J29/40, B01J35/10, B01J37/00, B01J37/02, B01J37/08, C07C11/06
CPC Code(s): C07C4/06
Abstract: a method for preparing a cracking catalyst includes combining a zeolite, an alumina binder, and phosphoric acid to form an extrusion mixture. the phosphoric acid acts as a peptizing agent. the extrusion mixture comprises from 0.000271 weight percent to 0.1 weight percent phosphoric acid based on the total weight of the extrusion mixture. the method further includes extruding the extrusion mixture to produce an extrudate. during the extruding, the phosphoric acid peptizes the alumina binder in the extrudate. the method further includes drying and calcining the extrudate to produce the cracking catalyst.
Inventor(s): Ali Shakir Al Hunaidy of Dhahran (SA) for saudi arabian oil company, Hasan Imran of Dhahran (SA) for saudi arabian oil company, Hyungmuk Lim of Daejeon (KR) for saudi arabian oil company, Kosan Roh of Daejeon (KR) for saudi arabian oil company, Jay H. Lee of Daejeon (KR) for saudi arabian oil company
IPC Code(s): C07C51/12, C07C29/151, C07C31/04, C07C41/09, C07C43/04, C07C53/08, F25J1/00
CPC Code(s): C07C51/12
Abstract: a system and method for producing acetic acid, including dry reforming methane with carbon dioxide to give syngas, cryogenically separating carbon monoxide from the syngas giving a first stream including primarily carbon monoxide and a second stream including carbon monoxide and hydrogen. the method includes synthesizing methanol from the second stream via hydrogenation of carbon monoxide in the second stream, synthesizing dimethyl ether from the methanol, and generating acetic acid from the dimethyl ether and first-stream carbon monoxide.
Inventor(s): Rajendra Arunkumar KALGAONKAR of Dhahran (SA) for saudi arabian oil company, Qasim Abdullah SAHU of Muntazah (SA) for saudi arabian oil company
IPC Code(s): C09K8/516, E21B33/138
CPC Code(s): C09K8/516
Abstract: compositions and methods for providing water shut off within a water producing zone of a wellbore. the composition includes alkaline nanosilica particles and hydrolysable ester-based 3d engineered non-convex particles. the method includes dissolving the hydrolysable ester-based 3d engineered non-convex particles to release an acid, which reacts with the alkaline nanosilica particles to form a solid.
20240417618. Polymers and Nanoparticles for Flooding_simplified_abstract_(saudi arabian oil company)
Inventor(s): S. Sherry Zhu of Waban MA (US) for saudi arabian oil company, Ayrat Gizzatov of Cambridge MA (US) for saudi arabian oil company, Marta Antoniv of Cambridge MA (US) for saudi arabian oil company
IPC Code(s): C09K8/588, C08F212/14, C08F220/06, C08F220/22, C08F220/24, C08F220/56, E21B43/20
CPC Code(s): C09K8/588
Abstract: a method and compounds for enhanced oil recovery (eor) including flooding of a mixture of water and one or more of the compounds in a geological formation. the compounds have a fluoroalkyl group.
Inventor(s): Khalid Y. Hazazi of Thuwal (SA) for saudi arabian oil company, Jehad K. El-Demellawi of Thuwal (SA) for saudi arabian oil company
IPC Code(s): F03B13/00, H02K7/18
CPC Code(s): F03B13/00
Abstract: a method for harvesting energy through pressure retarded osmosis includes identifying and pumping both a low salinity feed stream and a high salinity feed stream from upstream water sources to opposite ends of a semi-permeable membrane housing where the low salinity feed stream permeates through the semi-permeable membrane to the high salinity feed stream to pressurize and dilute it. the diluted stream rotates a turbine to generate electricity and produce a depressurized mid-salinity fluid. a system for harvesting energy through pressure retarded osmosis has a first and second upstream water source pumped through low and high salinity feed lines to opposite ends of a semi-permeable membrane housing including a container, a semi-permeable membrane, a low salinity side of the housing, and a high salinity housing. the system also has a low salinity exit line and a pressurized mid-salinity exit line exiting opposite ends of the semi-permeable membrane housing, a turbine, a generator coupled to the turbine, and a depressurized mid-salinity exit line downstream of the turbine.
Inventor(s): Abdullah M. AL-OTAIBI of Dhahran (SA) for saudi arabian oil company, Ahmad A. ALSARAIHI of Jubail (SA) for saudi arabian oil company, Mustafa K. HASHIM of Abqaiq (SA) for saudi arabian oil company
IPC Code(s): F28F25/12, F28F25/06
CPC Code(s): F28F25/12
Abstract: a cooling system includes a cooling tower providing a housing that has a bottom, a top opposite the bottom, and a sidewall extending between the top and the bottom, an air intake vent provided on the sidewall and through which external air can enter an interior of the cooling tower, a plurality of louvers arranged at the air intake vent and vertically offset from each other to direct the external air into the interior, and a cooling assembly attached to at least one of the plurality of louvers, the cooling assembly including a tube through which a coolant is circulated and one or more fins extending from a surface of the tube. a temperature and a humidity of the external air is reduced as the external air contacts the cooling assembly while being drawn into the interior through the air intake vent.
Inventor(s): Khawlah Kharashi of Thuwal (SA) for saudi arabian oil company
IPC Code(s): G01N27/407
CPC Code(s): G01N27/4074
Abstract: this disclosure relates to electrolyte compositions including a zeolite, yttria-stabilized zirconia (ysz), and carbon nanotubes for mono-nitrogen oxide (nox) sensors, and methods of determining the total nox content in a gas stream using said nox sensors.
Inventor(s): Peter Birkle of Dhahran (SA) for saudi arabian oil company, Leyla Ismailova of Moscow (RU) for saudi arabian oil company, Egor Tirikov of Moscow (RU) for saudi arabian oil company, Maram Saif of Dhahran (SA) for saudi arabian oil company, Mustafa Ali H Al Ibrahim of Safwa (SA) for saudi arabian oil company
IPC Code(s): G01N33/18, G06N20/00
CPC Code(s): G01N33/1833
Abstract: a method involving collecting a first geochemical data set for a first plurality of produced water samples; collecting a second plurality of produced water samples; performing geochemical analyses on the second plurality of produced water samples to form a second geochemical data set; and combining the first and second geochemical data sets into a database. the method further includes determining, by a subject matter expert, a water type for each produced water sample in the database and training a machine-learned model with the database to predict the water type of a produced water sample given its geochemical data. the method further includes collecting a third plurality of produced water samples, performing geochemical analysis on the third plurality of produced water samples, and determining, with the trained machine-learned model, the water type for each produced water sample in the third plurality of produced water samples using the third geochemical data set.
Inventor(s): Sanjiv KUMAR of Udhailiyah (SA) for saudi arabian oil company, Ahmed ALQAHTANI of Udhailiyah (SA) for saudi arabian oil company
IPC Code(s): G01V1/50
CPC Code(s): G01V1/50
Abstract: in some examples, a system can include a well integrity management tool includes an identifier, implemented by at least one processor, configured to identify one or more risks associated with a well based on well integrity data, a risk analyzer, implemented by the at least one processor, configured to determine a classification for the well based on a set of one or more identified risks using a risk model, wherein the risk model associates a category and a weight with each identified risk of the set of one or more identified risks, and a remediator, implemented by the at least one processor, configured to generate a remediation plan based on the classification.
Inventor(s): Asif Muzaffar of Dhahran (SA) for saudi arabian oil company, Goutam Kumar Nayak of Dhahran (SA) for saudi arabian oil company
IPC Code(s): G01V7/04, E21B44/00, E21B49/00
CPC Code(s): G01V7/04
Abstract: methods and systems for geophysical exploration include accessing, from a data store, measured gravity values for a geographical area; modeling gravity values for the geographical area; determining gravity anomaly values based on the measured gravity values and the modeled gravity values; a gravity anomaly map of the geographical area is generated based on the determined gravity anomaly values and physical locations in the geographical area associated with the determined gravity anomaly values. a dip surface is generated representing inclinations of the geographical area based on the gravity anomaly map. a gravity dip map of the geographical area is generated by combining the dip surface with the gravity anomaly map, and a visual representation of the gravity dip map of the geographical area is displayed, on a display device, wherein colors of the visual representation represent the values of the gravity map.
Inventor(s): Sultan Saadaldean Alsharif of Al-Khobar (SA) for saudi arabian oil company
IPC Code(s): G06F21/60, G06F21/62
CPC Code(s): G06F21/606
Abstract: systems and methods include a computer-implemented method for blocking the transfer of sensitive information. a document is analyzed by a leakage prevention system for sensitive information. the document is sent by a sender to at least one receiver. a context in which sensitive information is used in the document is determined. a sender risk profile of the sender and receiver risk profiles of the at least one receiver are determined. risk scores for the sender and the at least one receiver are determined using predefined rules and the sender/receiver risk profiles. the risk scores identify a use level of sensitive information in the document. a determination is made by the leakage prevention system, based at least on the risk scores, whether to block a transfer of the document or to allow a transfer of the document. the document is transferred or blocked based on the determination.
Inventor(s): Dong Kyu Cha of Dhahran (SA) for saudi arabian oil company, Abdullah Abdulaziz AlOmier of Thuwal (SA) for saudi arabian oil company, Subhash C. Ayirala of Dhahran (SA) for saudi arabian oil company, Mohammed Badri Al-Otaibi of Dhahran (SA) for saudi arabian oil company, Ali Abdallah Al-Yousef of Dhahran (SA) for saudi arabian oil company, Hussein Hoteit of Thuwal (SA) for saudi arabian oil company
IPC Code(s): H01L23/00, H01L21/3065, H01L21/56, H01L23/29, H01L23/31, H05K1/02, H05K3/22
CPC Code(s): H01L23/564
Abstract: a method for water drainage of a substrate includes creating, on a surface of the substrate, a designated hydrophobic region having hydrophobic surfaces of a hydrophobic film. electronic circuitries are fabricated in the designated hydrophobic region of the substrate. the method further includes creating, on the surface of the substrate, a designated hydrophilic region having hydrophilic surfaces of the substrate. a drainage channel is formed in the designated hydrophilic region. the method further includes facilitating, based on capillary imbibition of the drainage channel, fluid flow from the designated hydrophobic region to a drainage/evaporation port to prevent damage of the electronic circuitries by moisture accumulation in the designated hydrophobic region.
SAUDI ARABIAN OIL COMPANY patent applications on December 19th, 2024
- SAUDI ARABIAN OIL COMPANY
- B01J8/00
- B01J8/08
- CPC B01J8/003
- Saudi arabian oil company
- B01J8/16
- B01J29/48
- B01J37/02
- B01J37/10
- B01J37/30
- CPC B01J29/48
- B01J29/70
- B01J6/00
- B01J35/10
- B01J37/00
- C01B39/04
- CPC B01J29/7007
- B01J31/12
- B01J29/08
- B01J35/00
- C10G11/05
- CPC B01J31/121
- B01J37/34
- B01J20/18
- B01J20/30
- B01J20/32
- B01J29/06
- B01J37/03
- B01J37/08
- C01B3/12
- CPC B01J37/342
- C01B39/38
- B01J29/40
- C10G47/02
- CPC C01B39/38
- C07C4/06
- C07C11/06
- CPC C07C4/06
- C07C51/12
- C07C29/151
- C07C31/04
- C07C41/09
- C07C43/04
- C07C53/08
- F25J1/00
- CPC C07C51/12
- C09K8/516
- E21B33/138
- CPC C09K8/516
- C09K8/588
- C08F212/14
- C08F220/06
- C08F220/22
- C08F220/24
- C08F220/56
- E21B43/20
- CPC C09K8/588
- F03B13/00
- H02K7/18
- CPC F03B13/00
- F28F25/12
- F28F25/06
- CPC F28F25/12
- G01N27/407
- CPC G01N27/4074
- G01N33/18
- G06N20/00
- CPC G01N33/1833
- G01V1/50
- CPC G01V1/50
- G01V7/04
- E21B44/00
- E21B49/00
- CPC G01V7/04
- G06F21/60
- G06F21/62
- CPC G06F21/606
- H01L23/00
- H01L21/3065
- H01L21/56
- H01L23/29
- H01L23/31
- H05K1/02
- H05K3/22
- CPC H01L23/564
